RU173520U1 - FLEXIBLE WIPER - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering, namely, submersible breakwaters, and can be used to protect the waters in the seas, lakes, reservoirs and rivers, as well as coasts from wave effects [Е02В 3/06]. The technical result is to increase the operating life and increase the efficiency of the use of the wave suppressor. The specified technical result is achieved due to the fact that a flexible wave breaker is declared, consisting of wave-suppressing elements connected at one point at the bottom with an anchor, and at the other with wave-extinguishing elements, having negative buoyancy, having a bundle of flexible wave suppressors with positive buoyancy, fixed to the anchor in loops, characterized in that the bundles of wave-suppressing elements are made in the form of a link in polypropylene wave absorbers, with a specific gravity of not more than 0.86 g / cm, and the anchor is made in the form of a plate having a streamlined surface for sea waves, and the anchor loops are made of glass reinforcement.

Description

The utility model relates to the field of hydraulic engineering, namely, submersible breakwaters, and can be used to protect the waters in the seas, lakes, reservoirs and rivers, as well as coasts from wave effects [Е02В 3/06].

Known WAVE ENERGY EXTINGUISHER [RF patent No. 2228994] consisting of a moving wave-suppressing element made in the form of a wall mounted in a fixed base - the foundation block, the cross-sections of the wall and the foundation block have a trapezoidal shape, while the through channels are made in the wall with a varying diameter, and the base of the wall is in cross section in the form of a semicircle, with the foundation block in the upper part having a recess congruent to the base of the wall.

The disadvantages of the analogue are a rigid structure made of reinforced concrete, excluding reciprocating movements, high construction costs, as well as the negative impact on the underwater flora and fauna due to leaching of the upper sandy soil.

A DEVICE FOR EXTINGUISHING WAVES IN A WATER BODY is known [USSR author's certificate No. 470566], including a movable wave-suppressing element made in the form of a flexible wall of elastic material, rigidly fixed with a lower edge on a fixed base, equipped with horizontal ribs attached to the wall from the front and back sides, made in the form of hard plates.

The disadvantage of the analogue is its low efficiency, due to a narrow range of wave numerical characteristics, the instability of the element when exposed to waves whose energy exceeds the energy of the calculated wave, high manufacturing and operation costs associated with the use of steel elements subject to corrosion in the design.

Close in prior art is the HYDROTECHNICAL STRUCTURE (RF patent No. 2094565), containing several rows of flexible panels, at least one of which is waterproof, the lower edges of which are connected by cables with fasteners in the ground soil, and hollow float elements made to the upper edges are made with the possibility of filling their cavities with air or aqueous medium and associated with additional cables made adjustable by means of their movable connection with fasteners in the ground soil.

The disadvantage of the analogue is the low reliability due to the rapid wear of waterproof panels and their fastening at significant wave pressure. Similar in technical essence is the ARTICLE SUBSTRATE FOR EXTINGUISHING WAVES [RF patent No. 2406798], consisting of wave-extinguishing elements made in the form of a mesh bag filled in one part with stones and in the other wave-extinguishing elements having negative buoyancy, while the bag is intercepted at the border between parts of a clamp. For additional wave damping, tapes having a fine-mesh surface are fixed on the side surface of the bag. The disadvantage of the prototype is low efficiency for the following reasons:

1. It takes up a small area of kinetic energy resistance along the wave front;

2. The structure does not capture the entire excited thickness of the sea in depth and in its design (directly at the bottom) acts as a rigid underwater breakwater along which strong bottom currents erode, eroding the bottom;

3. During the period of the wave attenuation phase, it prevents the movement of sand material from the bottom to the shore, thereby causing a shortage of sediment on the beach.

4. The collection of stones, boulders and blocks for the construction proposed by the author of the structure [RF patent No. 2406798], will lead to large financial costs.

The prior art knows the solution according to patent US 3299640 for a hydraulic structure, which, based on the materials of the patent, is technically not effective for the following reasons.

If we assume that the source material of hydraulic structures is the same, the structure according to the patent US 3299640 occupies an underwater position. And this means that the waves rushing ashore on the surface of the sea, unhindered reach the coastal ledge and destroy the coast. So the effect aimed at reducing the wave energy is almost none. It can be seen that the author of US Pat. Therefore, the author of the patent US 3299640 establishes its hydraulic structure not parallel to the wave front, but across it.

All experts are well aware that such an orientation of hydraulic structures as buns (like the German-built buns in the Baltic in the 25s of the last century) retains only the alongshore flow of sand deposits, but practice has shown that at the same time compensatory flows arise along these buns (sometimes up to 1.5-2.0 m / s), which carry material from the beach to great depths. Our proposed hydraulic structure is distinguished by:

1. According to the technical device. The length (Sm) of the wave-suppressing element has a mathematical dependence and depends on the shallow water depth (Nm) and is defined as S = Η + the average long-term sea level fluctuation on this coastal section. This provides a significant suppression of wave energy, and hence higher efficiency.

2. For technological applications. The wave-absorbing elements that we offer are not installed across the coastline, but parallel to the coastline in several rows, which also increases the efficiency in terms of reducing wave energy when approaching the coast.

3. In US 3,299,640, the effort of the enclosure is to protect ports from dependence, where there are powerful longshore streams of sandy sediment. The claimed decision is aimed at protecting destructive shores from the effects of storm waves.

Also, the wave-damping elements of the patent (US 3299640) consist of polystyrene threads with a specific gravity of 0.909 g / cm ³ , which, when fouled, can sink to the bottom. The closest analogue, in terms of functional features, is the invention (RU 2564864, publ.: 10.10.2015) aimed at the destruction of wave energy before approaching the shore. It is a flexible wave breaker, consisting of wave-damping elements connected at one point at the bottom with a load, and in the other - wave-extinguishing elements having negative buoyancy, characterized in that it contains a bundle of flexible wave-dampers with positive buoyancy, installed throughout the thickness water in a staggered manner with a given interval and fixed to the bottom by means of a halyard stretched between loads. Loads can be made in the form of reinforced concrete blocks. In the design of the cargo can be provided with eyes made with the possibility of their installation and fastening the halyard. The disadvantage is that, as the breakwater anchor, weights are used, in relation to which the prototype indicates that they are feasible in the form of concrete blocks, reinforced and with hinges of iron reinforcement. These loads may be capsized by the waves. In addition, iron loops and square plates, also reinforced with iron, can easily be corroded in seawater. And this leads to a reduction in service life.

And although the prototype says that the wave suppressors are made of the finest polystyrene filaments with positive buoyancy, it is not taken into account that normal buoyancy is not enough, since the fouling can acquire additional weight and sink to the bottom. Because of what, in the prototype, it is required to install waveguide suppressors throughout the water column in a checkerboard pattern with a predetermined interval, which requires a larger number of waveguide suppressors, which are used as backup ones in case of immersion in water.

The objective of the utility model is to eliminate the disadvantages of the prototype, to improve the design and increase operational performance.

The technical result is to increase the service life and increase the efficiency of the use of the wave extinguisher.

The specified technical result is achieved due to the fact that a flexible wave breaker is declared, consisting of wave-breaking elements connected at one point at the bottom by an anchor, and in the other, by wave-breaking elements having negative buoyancy, having a bundle of flexible wave-suppressors with positive buoyancy, fixed to the anchor for loops, characterized in that the bundles of wave-extinguishing elements are made in the form of links of polypropylene wave absorbers, with a specific gravity of not more than 0.86 g / cm ³ , the anchor is made in the form of a plate having a streamlined surface for sea waves, and the anchor loops are made of glass reinforcement.

The plate can be made in the form of a truncated pyramid or a truncated cone.

Brief Description of the Drawings

In FIG. 1 shows a general view of a wave extinguisher.

In FIG. 2 shows the arrangement of the anchor of a flexible wave extinguisher using the example of a plate in the form of a truncated pyramid (a is a top view, 6 is a sectional side view from the end).

In FIG. Figure 3 shows an example of an anchor plate in the form of a truncated cone (a - top view, b - sectional side view from the end).

Utility Model Implementation

New in the claimed technical solution is that the wave-extinguishing elements of a hydraulic structure consist of polypropylene yarns 2 with greater buoyancy and a specific gravity of not more than 0.86 g / cm ³ (Fig. 1), and the waveguard anchor 1 is made as flattened plate, (Fig. 2) having a streamlined surface for the wave with a larger adhesion surface at the bottom of the sea. In addition, the flattened block of the anchor is reinforced with glass reinforcement, as well as fixing loops, which eliminates corrosion of the reinforcement, in comparison with the use of metal. All this increases the resistance to shear, increase the buoyancy of wave-extinguishing filaments at any waves 3. All this greatly increases the service life and increases the efficiency of the use of the wave extinguisher. A lower specific gravity of the waveguide 2 threads allows you to stay in operation longer and not sink even with fouling.

A flexible waveguide (see Fig. 1) consists of bundles of the thinnest polypropylene filaments 2, connected at one point at the bottom by one of the ends. Thread 2, the free end tied to the anchor 1 at the bottom as one link of the wave suppressor. Wave suppressor systems consist of links, the number of which depends on the length of the shore section being strengthened. In this case, the anchor 1 (see Fig. 2) is made in the form of a plate having a streamlined surface for sea waves, and the loop 4 of the anchor is made of glass reinforcement. The streamlined surface of the anchor 1 can be provided, for example, by making a plate in the shape of a truncated pyramid, or by making a plate in the form of a truncated cone (see Fig. 3).

A flexible waveguide is used as follows:

Behind the zone of critical depths, in three rows parallel to the coastline, flattened anchors are installed through each 2 m (Fig. 2). A link of a flexible wave suppressor is attached to each loop of the anchor. The length of the beams of flexible wave absorbers reaches a value equal to H, (where Η is the shallow water depth in meters) + the average long-term rise in sea level in this section of the coast. Beams of wave suppressors occupy the entire water column and a certain area of the water surface. When waves travel through the filaments, the kinetic energy of the laminar flow is converted into a turbulent flow of unsteady weak flows. In this case, on the one hand, wave energy is transferred to a flexible medium of wave absorbers, on the other hand, mutual penetration and quenching of a turbulent water flow occurs.

Useful technical effects from using the device are:

- increased application efficiency due to the fact that the wave suppressors carry out constant hydroelastic vibrations in any direction, thereby reducing the energy and speed of the wave;

- an increase in the effectiveness of shore protection from erosion due to the fact that, as a result of attenuation of wave energy in the critical depth zone, hydrodynamic conditions arise sufficient to transfer loose sand material from the bottom to the shore and form a stable beach that protects the shore.

- increased application efficiency due to the fact that the installation of a wave suppressor is possible on any part of the coast for any orientation of the coastline and is independent of the topography and angle of approach of the wave to the coast;

- increased reliability due to the fact that high buoyancy, and the design is plastic and permeable; which excludes the formation of wave breaking force and creates the conditions for the supply of loose material to the shore to form a beach;

- holding element - the anchor has a streamlined surface, which greatly increases stability during the period of wave action.

- High buoyancy of flexible wave suppressors ensures durability and efficiency.

- simplifying the design and reducing the cost of manufacture and operation due to the fact that inexpensive materials that are simple to manufacture and install are used for the manufacture and installation.

- A unified wave carrier system, consisting of individual links, corresponds to the Code of Rules developed by Transstroy TsNIIS (SP 32-103-97) for designing shore protection structures.

Also useful technical effects are:

- increasing the scope due to the fact that the waveguard can be used when organizing rescue operations in the stormy waters of the sea, when installed at anchors from the windward part of the wave;

- increasing the scope due to the fact that the waveguard can be used to organize a temporary quiet harbor in the coastal zone for small boats and other vessels.

Claims (2)

1. Flexible waveguard, consisting of waveguard elements connected at one point at the bottom with the anchor, having a bundle of flexible threads with positive buoyancy, attached to the anchor in a loop, characterized in that the beam of the waveguard elements link is made in the form of polypropylene threads with specific gravity of not more than 0.86 g / cm ³ , the anchor is made in the form of a plate having a streamlined surface for sea waves, and the anchor loops are made of glass reinforcement. 2. The flexible waveguard according to claim 1, characterized in that the plate is made in the form of a truncated pyramid and reinforced with glass reinforcement.

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